Global Arc

Survey of the principles of the structure and properties of non-molecular solids. Space group symmetry, structure determination by x-ray, and neutron diffraction. Introduction to electron microscopy. Important structure types in metals and oxides. Pauling Rules, solid solutions, nonstoichiometry, and defect chemistry. Two 90-minute lectures.

Structural principles and bonding theories are discussed for the various classes of inorganic and organometallic compounds. The topics include an introduction to group theory, vibrational spectroscopy, molecular orbital theory, electronic structure of d-orbitals, and ligand field theory. Additional topics will include reactions of coordination compounds and organometallic species, kinetic mechanistic analysis, and homogeneous catalysis systems. Prerequisites: CHM 301 and 302 or CHM 301 and 304 or equivalent are required. Note: CHM 337 does not provide adequate preparation for this course. Three lectures, one preceptorial.

Structural principles and bonding theories are discussed for various classes of main group inorganic and transition metal coordination compounds. The topics include an introduction to group theory, vibrational spectroscopy, molecular orbital theory, electronic structure of d-orbitals, and ligand field theory. Additional topics will include topics in the areas of solid-state chemistry, inorganic materials chemistry, and nanoscience. Prerequisites: CHM 301 and 302 or CHM 301 and 304 or equivalent are required. Note: CHM 337 does not provide adequate preparation for this course. Three lectures, one preceptorial.

A detailed review of recent successes and failures in the discovery of new drugs. Therapeutic areas to be discussed include: HIV, oncology, asthma, Alzheimer's Disease, antibiotics, diabetes, and neglected diseases (malaria, TB, human African Trypaonosomiasis). Case studies presented by leading pharmaceutical scientists will complement discussions of the functional steps required to select a target, indentify a new chemical entity, and get it to patients. Emphasizes the integration of the molecular sciences and the role of chemistry in inventing and producing important new medicines. Two 90-minute lectures, one class.

An introductory course. Principles of chemistry; understanding the world around us; structure and reactions of atoms and molecules; laboratory manipulations, preparations, and analysis. Fulfills medical school entrance requirements in general chemistry and qualitative analysis. Three lectures, one class, one three-hour laboratory.

Continuation of 201. Principles of chemistry; introduction to chemical bonding and solid state structure; chemical kinetics, nuclear chemistry; descriptive inorganic chemistry; laboratory manipulations, preparations, and analysis. Fulfills medical school entrance requirements in general chemistry and qualitative analysis. Three lectures, one class, one three-hour laboratory.

Introduction to the basic concepts of chemistry: stoichiometry, types of reactions, thermodynamics, quantum mechanics, and chemical bonding. Introduction to the structure, chemistry, and properties of technologically important materials: metals, semiconductors, ceramics, and polymers. Fulfills medical school requirements in general chemistry and qualitative analysis. Three lecture hours, one class, one three-hour laboratory.

An intensive study of fundamental theoretical and experimental principles. Topics are drawn from physical, organic, and inorganic chemistry. For students with excellent preparation who are considering scientific careers. Fulfills medical school entrance requirements in general chemistry and qualitative analysis. Completion of 215 qualifies the student for 300-level courses and some 400-level courses after consultation with the instructor of the upper-level course. Three lectures, one class, one three-hour laboratory.

The Chemistry Research Experience sequence provide sophomore students with an in lab research experience. The sequence comprises two semesters with CHM 250 as a prerequisite for CHM 251, a credit bearing P/D/F course. Students will gain an introduction to chemical research within the laboratory of a chemistry faculty mentor. Students are expected to spend 6 hours per week engaged in research and attend weekly meetings as outlined by the mentoring faculty. At the end of the semester, students will present an oral presentation summarizing their results.

The Chemistry Research Experience sequence provide sophomore students with an in lab research experience. The sequence comprises two semesters with CHM 250 as a prerequisite for CHM 251, a credit bearing P/D/F course. Students will gain an introduction to chemical research within the laboratory of a Chemistry faculty mentor. Students are expected to spend 6 hours per week engaged in research and attend weekly meetings as outlined by the mentoring faculty. At the end of the semester, students will present an oral presentation summarizing their results.